It has been suggested that the big questions of science are answered - that science has entered a "twilight age" where all the important knowledge is known and only the details need mopping up. And yet, the unprecedented progress in science and technology in the twentieth century has raised qu- tions that weren't conceived of a century ago. This book argues that, far from being nearlycomplete, the storyof sciencehas many morechapters,yet unwritten. With the perspective of the century's advance, it's as if we have climbed a mountain and can see just how much broader the story is. Instead of asking how an apple falls from a tree, as Isaac Newton did in the17thcentury,wecannowask:Whatisthefundamentalnatureofanapple (matter)? How does an apple (biological organism) form and grow? Whence came the breeze that blew it loose (meteorology)? What in a physical sense (synaptic ?rings) was the idea that Newton had, and how did it form? A new approach to science that can answer such questionshas sprung up in the past 30 years. This approach - known as nonlinear science-ismore than a new ?eld. Put simply, it is the recognition that throughout nature, the whole is greater than the sum of the parts. Unexpected things happen.
From the reviews:
"The book begins with an engaging outline of the history of nonlinear science, followed by chapters on its main aspects, namely, chaos, solitons, and reaction-diffusion systems. ... The book charms with historical and personal vignettes. The bibliography contains 1,087, mostly referenced, entries. ... it is a must read for anyone in or near nonlinear science. Summing Up: Highly recommended. Upper-division undergraduates through researchers/faculty." (J. Mayer, CHOICE, Vol. 45 (9), 2008)
"Alwyn Scott (1931-2007) completed this summary of his life's study in December 2006 ... . This history book wonderfully summarizes ideas that were so important to him in a way that is largely accessible to 'general readers who would understand science and for university undergraduates who would become researchers in or teachers of science.' It also displays his humanity, charm, and broad-reaching interests and knowledge." (Robert E. O'Malley, SIAM Review, Vol. 50 (2), 2008)
"The book begins with an engaging outline of the history of nonlinear science, followed by chapters on its main aspects, namely, chaos, solitons, and reaction-diffusion systems. ... The book charms with historical and personal vignettes. The bibliography contains 1,087, mostly referenced, entries. ... it is a must read for anyone in or near nonlinear science. Summing Up: Highly recommended. Upper-division undergraduates through researchers/faculty." (J. Mayer, CHOICE, Vol. 45 (9), 2008)
"Alwyn Scott (1931-2007) completed this summary of his life's study in December 2006 ... . This history book wonderfully summarizes ideas that were so important to him in a way that is largely accessible to 'general readers who would understand science and for university undergraduates who would become researchers in or teachers of science.' It also displays his humanity, charm, and broad-reaching interests and knowledge." (Robert E. O'Malley, SIAM Review, Vol. 50 (2), 2008)
Aus den Rezensionen: "... 'The Nonlinear Universe' ist vom deterministischen Chaos geprägt ... Und dessen Grundlagen, Vorkommen und Anwendungen werden ausführlich beschrieben ... Scott macht Komplexität im Universum erst verständlich - und reduziert diese doch auch in der Erklärung und Entdeckung durch Ordnung (also auch Regeln) im Chaos." (in: The Science Fiction Jahr 2008, 2008, S. 784)